New ICESat-2 Observations Show We’re Losing Arctic Sea Ice at a “Frightening” Rate

Arctic Sea Ice Thickness Measurement

New estimates of snow depth, from a combination of lidar and radar, improve sea-ice thickness estimates, according to a new study in AGU’s Geophysical Research Letters. Arctic sea ice has lost 16% of its thickness in the last three years, the study finds. Credit: NASA/Kathryn Hansen

  • End-of-season Arctic multiyear sea ice is about 1.5 feet thinner in 2021 than in 2019
  • Arctic Ocean sea ice lost one-third of its volume in the past 18 years
  • New pan-Arctic snow depth suggests previous estimates of sea ice thickness may have been overestimated

Over the past two decades, the Arctic has lost about one-third of its winter sea ice volume, largely due to a decline in sea ice that persists over several years, called multiyear ice, according to a new study. The study also found sea ice is likely thinner than previous estimates.

Seasonal sea ice, which melts completely each summer rather than accumulating over years, is replacing thicker, multiyear ice and driving sea ice thinning trends, according to the new research.

Arctic sea ice snow depth is estimated, for the first time, from a combination of lidar (ICESat-2) and radar (CryoSat-2) data. Using these estimates of snow depth and the height of sea ice exposed above water, the study found multiyear Arctic sea ice has lost 16% of its winter volume, or approximately half a meter (about 1.5 feet) of thickness, in the three years since the launch of ICESat-2.

The study was published in the AGU journal Geophysical Research Letters, which publishes short-format, high-impact papers with implications that span the Earth and space sciences.

“We weren’t really expecting to see this decline, for the ice to be this much thinner in just three short years,” said lead study author Sahra Kacimi, a polar scientist at the California Institute of Technology’s Jet Propulsion Laboratory.

Scientists make satellite estimates of sea-ice thickness using snow depth and the height of the floating ice above the sea surface. Snow can weigh ice down, changing how ice floats in the ocean. The new study compared ice thickness using new snow depths from satellite radar and lidar to previous ice thickness and snow depth estimates from climate records. The researchers found using climatology-based estimates of snow depth can result in overestimating sea-ice thickness by up to 20%, or up to 0.2 meters (0.7 feet).

“Arctic snow depth, sea ice thickness and volume are three very challenging measurements to obtain,” said Ron Kwok, a polar scientist at the University of Washington’s Applied Physics Laboratory who co-authored the new study. “The key takeaway for me is the remarkable loss of Arctic winter sea ice volume — one-third of the winter ice volume lost over just 18 years — that accompanied a widely reported loss of old, thick Arctic sea ice and decline in end-of-summer ice extent.”

“This is the first time anyone has several years’ worth of data from the difference between lidar and radar data for snow depth,” said Robbie Mallett, a polar ice researcher at University College London who was not involved in the study. “It’s a really useful update on how ICESat-2 is performing.”

The study used an 18-year record of sea-ice observations from ICESat and the newer ICESat-2 and CryoSat-2 satellites to capture monthly changes in Arctic sea-ice thickness and volume, to provide context for sea ice thickness estimates from 2018 to 2021. The 18-year record showed a loss of about 6,000 cubic kilometers of winter ice volume, largely driven by the switch from predominantly multiyear ice to thinner, seasonal sea ice.

Older, multiyear ice tends to be thicker and therefore more resistant to melting. As that “reservoir” of old Arctic sea ice is depleted and seasonal ice becomes the norm, the overall thickness and volume of Arctic sea ice is expected to decline. “Current models predict that by the mid-century we can expect ice-free summers in the Arctic, when the older ice, thick enough to survive the melt season is gone,” Kacimi said.

“This is really old ice we’re losing at quite a frightening rate,” Mallett said.

Reference: “Arctic Snow Depth, Ice Thickness, and Volume From ICESat-2 and CryoSat-2: 2018–2021” by Sahra Kacimi and Ron Kwok, 10 March 2022, Geophysical Research Letters.
DOI: 10.1029/2021GL097448

3 Comments on "New ICESat-2 Observations Show We’re Losing Arctic Sea Ice at a “Frightening” Rate"

  1. “The study used … the newer ICESat-2 and [much older] CryoSat-2 satellites to capture monthly changes in Arctic sea-ice thickness and volume, to provide context for sea ice thickness estimates from 2018 to 2021.”

    What the study demonstrates is that the old, manual bore-hole sampling protocol, and the design limitations of ICESat, provided undependable measurements of the Arctic ice thickness.

    However, three years worth of higher quality measurements is inadequate to say anything reliable about long-term trends that correspond to climate. Something appears to have changed over the last dozen years because the ice surface area has increased, even if the thickness has recently decreased.

    The science is STILL not settled!

    • Frosted Flake | March 15, 2022 at 5:39 am | Reply

      Science is never settled. Because science is not simply a competing religion. Trying to put your god in the closet, where Jesus Christ said to put him. Science is a method of discovering facts. And discarding old ‘facts’ which turn out to not even be facts is the most important part of that prosess. And that is the part you religious fools are always pointing at to “prove” scientists don’t know what they are talking about, and you god-mongers do. Because scientific truths change all the time, and religious truth never does.

  2. tineye.com lists photo used 2016 and if you go to that URL, in German, that the photo is from 2011.
    https://www.20min.ch/story/noch-nie-so-verrueckten-winter-gesehen-616379593395
    Das arktische Eis geht immer mehr zurück: Wissenschaftler der Nasa bei Untersuchungen 2011.
    Nice try. Tin Eye – Cut and paste any photo for search of where photo published.

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